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Full text of "Capitol Reef National Park Tinaja Wetland Survey : Summary Report"

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CAPITOL REEP NATIONAL PARK TINAJA WETLAND SURVEY 

SUMMARY REPORT 
APRIL, 1995 



KEVIN BERGHOFF, HYDROLOGIST 

RESOURCE MANAGEMENT AND SCIENCE DIVISION 

CAPITOL REEF NATIONAL PARK 



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INTRODUCTION 

A survey was initiated in 1993 in an effort to determine the 
extent of tinajas in Capitol Reef National Park (CARE) . Tinajas 
are depressions eroded out of the Navajo sandstone substrate 
formation along the Waterpocket Fold. This report will summarize 
the data collected by CARE personnel and seasonal employees. 

The tinajas occur almost exclusively in the Navajo sandstone 
formation of the Waterpocket Fold and range in size from small, 
ephemeral pools to large perennial pools. The Waterpocket Fold is 
a monocline deformation with an approximate north-south strike 
and multiple underlying strata dipping to the east. At the 
southern end, the monocline formation starts in Glen Canyon 
National Recreation Area and extends 170 km (106 mi.) thru CARE 
to the base of Thousand Lakes Mountain. Elevation at the base of 
the fold is approximately 1070 meters (3510 ft.) in the south 
district and 2000 meters (6562 ft.) in the north district. 

CARE is located in an arid environment with approximately 
183 mm (7.2 in.) of annual precipitation in the Fruita area to 
140 mm (5.5 in.) of precipitation in the south district. Average 
July maximum temperature is 33 °C and average January minimum is 
-8 °C (Spence and Henderson, 1993.) . The tinajas are fed mainly 
from direct precipitation and surface runoff from the drainage 
above that point. Some of the tinajas have well developed stands 
of riparian vegetation while others are surrounded by bare 
sandstone with no established vegetation. 

Various classification schemes have been developed for 
wetland systems in the United States (Martin et al. 1953, Shaw 
and Fredine 1956, Cowardin et al., 1979). Cowardin's 
classification has become the most accepted system and is being 
used in the National Wetland Inventory. Under this hierarchial 
classification the tinajas would be palustrine systems with rock 
bottoms, unconsolidated bottoms, or aquatic beds. The substrate 
could be further classified as bedrock or sand. This system is 
not sufficiently specific and will not adequately represent the 
full scope of tinajas at CARE. It would provide only three types 
of wetlands since classifying to dominance type would require a 
more intensive study. 

A classification system has also been developed for the 
prairie potholes (Stewart and Kantrud, 1971) . The basis of this 
system is water depth and the extent of vegetation in zones 
around the wetland. Tinajas differ greatly from the prairie 
potholes and do not fit well into this system. The tinajas at 
CARE have been found to occur in sandstone basins that are often 
ellipsoid shaped (i.e., deep throughout the basin) and occur in 
basins with little or no soil development. Because of this 
feature discrete vegetation zones (e.g., deep marsh, wet meadow) 
based upon a continuum of decreasing moisture from the center to 
the edge of the wetland do not occur. 

Based on preliminary surveys the tinajas were determined to 
be mainly concentrated in the south district of the park. Because 
of the remote nature and high concentration of tinajas, this 
project focused on the area south of the Burr Trail. 



Due to the unique nature of the tinajas there is currently 
no classification system that will adequately describe these 
aquatic systems. For purposes of this inventory the former park 
biologist, Sandy Borthwick, developed a data collection system in 
an attempt to characterize the tinajas at CARE based on a number 
of various classification methods described in previous 
literature (Brown and Johnson, 1983, Cowardin et al., 1979; 
Steward and Kantrud, 1971) . 

During the fall of 1993 Morgan Suter was hired as a 
temporary employee to concentrate on the tinaja survey. He spent 
several months on the project until it became toocold for field 
work. In the spring of 1994 Chester Anderson was hired to 
continue the work. The field work for the survey was completed in 
late May of 1994. 

PROJECT OBJECTIVES 

The following is a list of the specific objectives that were 
stated in the project proposal: 

1) To determine the locations of all major tinaja drainages 
and tinajas within the Waterpocket Fold; enter a digital 
location of these into a GIS. 

2) To categorize and group tinajas based on physical and 
biological characteristics. 

3) To determine those features of the Waterpocket Fold which 
predict the presence of significant drainages and the 
permanence of individual tinajas. 

4) To determine the number of tinajas or tinaja drainages 
susceptible to impacts caused by future developments, i.e., 
increased visitor and stock use. Such impacts include 
trampled vegetation, increased erosion and sedimentation, 
decreased water quality and displaced wildlife. 



MEIHQDJS 

A Tinaja Inventory Data Sheet (included in appendix) was 
developed by the former park biologist, Sandy Borthwick. This 
data sheet was used to document field data for the duration of 
the project. The following discussion is an explanation of the 
methods used for collection of specified data on the data sheet. 

LOCATION DATA 

Tinajas were located by hiking along the eastern boundary of 
the Waterpocket Fold and entering each drainage encountered. The 
decision of whether or not to include a pool in the survey was 
based on a subjective judgement by field personnel. If the 
respective pool was perceived to retain open water for greater 
than one week it was included in the survey. As tinajas were 
discovered, each one was marked on the appropriate USGS 7.5 
minute topo map and UTM coordinates were later determined. Each 
tinaja was photographed and the photo roll and number were 



documented on the data sheet. Each drainage that contained 
tinajas were numbered sequentially starting at the Burr Trail and 
heading south, with the individual tinajas numbered in ascending 
order up the drainage from east to west. The drainages and 
individual tinajas were eventually digitized into a GIS (i.e. 
ARC/ INFO) map coverage. 

PHYSICAL PARAMETERS 

Measurements were taken at each tinaja to determine the 
length, width, and depth of any existing open water. The tinaja 
basin, which consisted of any open water plus area covered with 
low meadow/riparian vegetation, was also measured for length and 
width. Maximum depth was determined by summing the open water 
depth plus the distance of the water level below the high water 
mark. 

Exposure was estimated based on expected summer conditions 
as exposed (1) , protected (2) , or very protected (3) . If sediment 
was present the amount was approximated as small (< 10% of 
maximum volume) , medium (10-50% of maximum volume, and large 
(>50% of maximum volume) . Position in the drainage was documented 
as in the lower, middle, or upper one third of the drainage. If a 
pour off was present from the pool immediately above, the depth 
from the top of the pour off to the high water mark was 
estimated. 

Percent slope of the surrounding substrate was measured 
using a inclinometer. This measurement was based on the percent 
slope of the surrounding substrate and not necessarily on the 
inclination of the actual drainage. This procedure became 
problematic when attempting to determine the substrate slope at 
tinajas located in the bottom of well developed canyons deeply 
incised into the Navajo sandstone (at a low inclination angle) 
when the surrounding substrate was inclined at a relatively steep 
angle. Unfortunately, the tinajas were not differentiated as to 
their location in deep canyons or perched on low inclination 
substrate. Difficulty was also encountered during the data 
analysis stage when attempting to correlate the slope to other 
tinaja characteristics. 

WATER QUALITY 

Conductivity measurements were performed in the field using 
a handheld Whatman Pure H 2 u-Sensor with a range from 0-99.9 
uS/cm. pH was measured using an Oakton pHTestr 2 with automatic 
temperature compensation. The pH meter was not always available 
so pH was measured at only 44 tinajas. Both meters were 
calibrated once daily prior to use. 

Water color was determined by scooping a sample of the 
tinaja water into a clear container and inspecting it in the 
sunlight. Evidence of rust stains at the inlet/outlet or oily 
sheen present on the water surface was documented. 



POTENTIAL AND EXISTING USE 

Observed degree of uses and accessibility were estimated 
using relative indices. Distance in miles to the nearest 
trailhead was estimated. Accessibility was determined as being 
readily accessible (no obstructions) , accessible (obstructions 
which can be hiked or climbed around) , and inaccessible (major 
obstruction which requires advanced climbing skills to get 
around) . 

Evidence of people within the drainage were categorized as 
no evidence (0) , footprints for 1-5 people (1) , footprints of >5 
people (2) , and people seen (3) . Evidence of wildlife in the 
drainage were categorized as none (0) , tracks or scat present 
(1) , and wildlife present. Evidence of people or wildlife present 
at the tinaja were categorized as none (0) , 0-10 footprints (1) , 
11-50 footprints (2), >50 footprints (3), or people/wildlife 
present (4) . If possible, wildlife tracks and species were 
identified and recorded. 



BASIN/ VEGETATION CHARACTERIZATION 

The tinaja basin was the area of the tinaja that contained 
open water plus any emergent and low meadow/riparian vegetation. 
The basin perimeter covered any surrounding sandstone or typical 
arid upland vegetation that may have established around the 
tinaja basin. 

Emergent and low meadow/riparian vegetation were recorded 
separately and approximate percent cover of each species 
estimated. This was a rough estimate that was done by visually 
observing a zone of interest (i.e. emergent vegetation) and 
approximating the percent cover of each species in that zone. 

Low meadow vegetation is represented by low growing herbs, 
grasses or grass like species (e.g. Solidago spp., Elymers spp. , 
and Juncus spp.). Emergent vegetation consists of species that 
grow in the littoral zone (e.g. T yphus spp. and Phragmites spp.). 
Riparian vegetation consists of trees and woody shrubs (e.g. 
Populus fremonti r S_a_lix spp./ Acer negundo) . 

Low meadow and riparian vegetation were difficult to 
separate because there was not a distinct separation between the 
respective habitats. As a result, tinajas with low meadow and/or 
riparian vegetation tended to be grouped together. However, 
vertical structure and approximate percent cover of each riparian 
species was estimated because of their influence on exposure of 
the tinajas. 

MACROINVERTEBRATES AND AMPHIBIANS 

An aquatic D-net was used to sweep all habitats present in 
the tinaja. The macro invertebrates were identified and the 
relative abundance of the populations were estimated and assigned 
a value of absent (0) , sparse, 1-10 seen (1) , common, 11-50 seen 
(2) , and abundant, >50 seen (3) . Average number of tadpoles 
observed were determined during four 3 second counts. Any 
amphibians observed (i.e., frogs and toads) were documented. 



RESULTS 

A total of 463 individual tinajas were discovered in 80 
drainages along the Waterpocket Fold south of the Burr Trail to 
the CARE park boundary (Fig. 1, see appendix for a print out of 
all the raw data collected) . There were 13 drainages discovered 
with no tinajas. The tinajas occurred mainly on Navajo sandstone 
dipping to the east with an inclination ranging from to 94%. 
Mean inclination of the strata was 43%. Figure 2 displays a 
frequency distribution of the number of tinajas occurring within 
inclination or slope ranges specified in 5% increments. 

The volume of the open water pools ranged from to 1532 m 3 
with a mean volume of 21 m 3 . Figure 3 displays the distribution 
by volume of the tinajas with a majority of the tinajas in the 
to 15 m 3 range. Exposure of the tinajas varied with 119 (26%) 
tinajas rated as exposed, 270 (59%) rated as protected, and 57 
(12%) rated as very protected. 

Electrical conductivity of the pools was low ranging from 3 
to 134 uS/cm with a mean value of 43 uS/cm (fig. 4) . pH was 
neutral to basic ranging from 6.6 to 9.5 with a mean value of 7.8 
(fig. 5) . Table 1 displays descriptive statistics for various 
physical characteristics and water quality parameters. Water 
color was labeled as colorless at 315 (68%) tinajas, brown at 100 
(22%) tinajas, rusty at 5 (1%) , green at 15 (3%) , and other at 27 
(6%) . Rusty stains were present at 55 (12%) and an oily sheen was 
present 93 (20%) times. 

There were 66 (14%) tinajas at 0-2 miles from the nearest 
trailhead, 64 (14%) at 2.1-5.0 miles, 197 (43%) at 5.1-10 miles 
and 75 (16%) greater than 10 miles. Evidence of people was found 
at 32 (7%) tinajas and evidence of wildlife was found at 105 
(23%) tinajas. 

During the tinaja survey a total of 91 different plant 
species were identified. There were 78 tinaja basins (17%) with 
emergent vegetation and 255 (55%) with low meadow/riparian 
vegetation. Emergent vegetation was typically found in or near 
the open water section of the basin. This vegetation consisted of 
T ypha latifolia (66 locations) or Phraomites australis (26 
locations) . Interestingly, these two species never occurred in 
the same tinaja. The riparian woody species consisted mainly of 
Po pulus fremonti (75 locations) , Salix nigra (65 locations) , 
Tamarix ramisissima (34 locations) , Salix exioua (23 locations) , 
and Acer negundo (2 locations) . Much of the vegetation observed 
consisted of riparian obligate, with at least one obligate 
species occurring in 117 (25%) tinaja locations. Rock pools, set 
in bedrock with no surrounding vegetation, occurred 161 (35%) 
times. Table 2 contains a list of all the plant species 
identified which includes the four letter abbreviation, 
scientific and common name and the frequency of occurrence. 

Table 3 lists the macroinvertebrate and amphibian 
populations found along with the number and the percent of the 
tinajas they were found in. 



DISCUSSION 

Field work for this tinaja inventory project was conducted 
during the fall and spring of the year. As a result of the timing 
of the data collection, this summary represents a 'snapshot' of 
the biological characteristics of the tinajas. While the temporal 
aspect of the data collection has no effect on many of the 
parameters of interest (i.e. % slope, accessibility, etc.) others 
will be greatly affected (i.e. evidence of people and wildlife, 
presence of vegetation and aquatic species, etc.). 

The bi-modal frequency distribution of the tinajas based on 
percent slope of the underlying strata was somewhat of a surprise 
(see fig. 2) . The effect may be due to the structure of the 
underlying geologic layers. North of the Red Slide most of the 
tinajas are in locations that are perched up on the Navajo 
sandstone formation draining relatively small areas that slope to 
the east at an angle slightly less than the angle of inclination 
(i.e., dip) of the underlying strata. South of the Red Slide, 
many of the drainages have headwaters originating in the Wingate 
formation west of the Navajo formation. The drainage areas are 
much larger and many of the tinajas are located in drainages that 
are deeply incised in to the Navajo sandstone and slope to the 
east at an inclination substantially less than the surrounding 
strata. The percent slope of substrate (#5 on field sheet) is 
based on the slope of the surrounding substrate and not 
necessarily the inclination of the actual drainage. The result is 
many tinajas south of the Red Slide area are located in deeply 
incised canyons surrounded by Navajo sandstone with a slope of 
50-65%. In actuality, most of the tinajas in this higher percent 
slope range are likely in drainages with 10-35% slope. This 
clustering of tinajas within a specific inclination range 
suggests slope may be a significant factor in the development of 
the tinaja drainages. 

Due to the lack of a field meter, pH was measured at only 
10% of the tinajas. Five of the sites with pH less than 7.2 were 
located in drainage #19. Haefner and Lindahl (1991) found tank pH 
values around 6.6 immediately following a rain. Weather 
conditions at the time drainage #19 was surveyed are unknown. An 
unusually high pH value was recorded at tinaja 13b-l, one of the 
pools commonly called Cottonwood tanks. Reasons for this high pH 
are unknown but a similar value was observed in one of the lower 
Cottonwood tanks by Haefner and Lindahl (1991) . 

Electrical conductivity was measured at most sites and found 
to be relatively low with the majority being less than 100 uS/cm. 
Some samples that were out of the range of the meter were brought 
back to the lab for testing. The low conductivity is likely due 
to the soil type found in the tinaja basins, being derived from a 
parent material of Navajo sandstone with small amounts of soluble 
material. 

Because of the design of this survey involved visiting the 
tinajas just once it is difficult to determine the extent of use. 
However, some conclusions can be drawn from the data collected, a 
small fraction (7%) of the tinajas showed evidence of human use 
in the form of people present or footprints observed. The pools 



with the greatest evidence of use are the well known, named 
tinajas in easily accessible locations such as Cottonwood, 
Willow, Muley, and Fountain tanks. These tinajas are likely the 
most susceptible to impact from increased use from hikers, 
backpackers, and horses. Although wildlife were seldom present at 
the tinajas, tracks of large and small mammals were often 
observed (105 observed) . This value is certainly a low estimate 
due to the fact that 35% of the tinajas are rock pools that will 
not show surrounding footprints or tracks. 

Vegetation is a key indicator of permanence of water in the 
tinajas. As noted in the results section, many of the tinaja 
basins contain emergent and low meadow/riparian plant species. 
Many of these species are classified as riparian obligate species 
and as such require the presence of water year round. It has been 
noted during the ongoing studies in the summer of 1994 that pools 
with surrounding vegetation evaporate at a faster rate than those 
without vegetation due to increased evapotranspiration (Toben 
LaFrancois, pers. comm.). Even with the absence of open water, 
the presence of riparian obligate species suggest the long term 
presence of sub-surface water. 

Amphibians and especially macroinvertebrates will be highly 
variable temporally. Relative abundance of each of the different 
taxa will depend on the particular position in the life cycle of 
each species and the time of year the tinajas were inventoried. 

Although it is difficult to develop a specific 
classification system based on the survey data, some 
characteristics appear common to many of the tinajas. Based on 
the location of the pools (i.e., deep canyons or perched on the 
Navajo sandstone) , depth, and the presence or absence of 
vegetation, general catagories can be found. 

The bi-modal distribution of the tinajas based on percent 
slope represents two main catagories. Those in the 0-40% range 
represent tinajas in locations perched up near the surface of the 
Navajo sandstone. Those located on slopes greater than 4 0% tend 
to be located in canyons deeply incised into the Navajo 
sandstone. 

Depth is an important physical characteristic in regard to 
pool permanence. The tinajas can further be separated into sub- 
catagories of deep (greater than 1 m)and shallow (less than 1 m) 
pools. 

A final sub-category is the presence/absence of upland or 
low meadow/riparian vegetation. Since riparian vegetation type 
requires the presence of at least sub-surface water, it is 
included here to indicate relative permanence of water. The 
absence of all vegetation, represented by rock pools, is the 
remaining sub-category. 

With the main catagories based on location and sub- 
catagories based on depth and presence/absence of vegetation, a 
general grouping would appear as follows: 



MAIN CATAGORIES 

LOCATION 

1. Tina j as perched on the surface of the Navajo sandstone 

-Represented by tinajas located on substrate with less than 
40% slope (fig. 2) . 
OR 

2. Tinajas in deeply incised canyons 

-Represented by tinajas located at the bottom of canyons 
deeply cut into the Navajo sandstone. Indicated in fig. 2 by 
slope greater than 40%. 

SUB-CAT AGORIES 

DEPTH 

A. Deep pools 

-Represented by pools greater than 1 m depth. 
OR 

B. Shallow pools 

-Represented by pools less than 1 m depth. 

VEGETATION 

1. Tinajas with emergent or low meadow/riparian 
vegetation present. 

OR 

2. Tinajas with upland vegetation only. 
OR 

3. Rock Pools - tinajas with no vegetation present. 

CONCLUSION 

Water is a critical, limited resource in the arid 
environment of the south Waterpocket Fold. Halls Creek is the 
only other source of surface water in this area and, for the most 
part, is highly ephemeral in nature. Although many of the tinajas 
inventoried in this survey are quite small and some are 
temporary, collectively they represent the greatest and most 
widespread source of surface water in the area. Because of the 
presence and range of these temporary and perennial sources of 
water, they are an essential resource for the wildlife, 
vegetation and aquatic life in the area. 

In addition to this survey several research projects are 
currently focusing on various aspects of the tinaja systems. 
These include a chemical and biological characterization of 
representative tinajas by Jill Baron 1 ; a study of aquatic 
populations through a year cycle by Toben LaFrancois 2 , scheduled 
to be completed in spring 1995; and the productivity and 
distribution of tinaja systems as related to pool depth and 



Research Ecologist, National Biological Survey, Natural 
Resource Ecology Lab, Colorado State University (CSU) 

2 Graduate student, CSU, Dept. of Entomology 



permanence by Chester Anderson 3 . Field work for Anderson's study 
is continuing and will be used in the development of a model that 
will further catagorize the tinaja systems. Results from these 
studies will greatly assist in the understanding of these unique 
desert ecosystems and aid in the management of this important 
resource. 



'Graduate student, Cornell University, Dept. of Entomology 



LITERATURE CITED 

Brown, B.T. and R.R. Johnson, 1983, The distribution of bedrock 
depressions (tinajas) as sources of surface water in Organ 
Pipe Cactus National Monument, Ariz., Jour, of the Ariz.- 
Nev. academy of sciences, 18:61-68 

Cowardin, L.M. , V.C. Carter, F.C. Golet, and E.T. LaRoe, 1979, 
Classification of wetlands and deepwater habitats of the 
United States, U.S. Fish and Wildlife Serv. , FWS/OBS-79/31, 
Washinton, D.C. 103 pp. 

Haefner, J.W. , and A.M. Lindahl, 1991, The ecology of small pools 
in Capitol Reef National Park, UT. NPS contract #PX-1350-8- 
0187, 172 pp. 

Martin A.C., N. Hotchkiss, F.M. Uhler, and W.S. Bourn, 1953, 

Classification of wetlands of the United States, U.S. Fish 
and Wildlife Service, Spec. Sci. Rep. — Wildl 20. 14 pp. 

Shaw, S.P., and C.G. Fredine, 1956, Wetlands of the United 
States, U.S. Fish and Wildlife Serv., Circ. 39, 67 pp. 

Spence, J.R., and N.R. Henderson, 1993, Tinajas and hanging 

garden vegetation of Capitol Reef National Park, southern 
Utah, U.S.A., Journal of Arid Environ., 24:21-36 

Steward, R.E. and H.A. Kantrud, 1971, Classification of natural 
ponds and lakes in the glaciated prairie region, U.S. Fish 
and Wildlife Serv., Resource Publ. 92, 57 pp. 



L 



APPENDIX 

CAPITOL REEF NATIONAL PARK TINAJA SURVEY - RAW DATA 

Location and Physical Parameter Data 1 

Water Quality, Potential and Existing Use Data 12 

Basin/Vegetation Characterization Data 22 

Macroinvertebrates and Amphibians Data 33 

Vegetation Species Data 41 

Tina j a Inventory Data Field Sheet 97 



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10/13/93 1330 4 


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51 


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10/13/93 1530 5 


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77 


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2 





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10/18/93 1251 6 


1 


90 












1 


1 


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10/18/93 1336 6 


2 


20 





4 






1 


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10/19/93 1125 7 


1 


30 





4 






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10/19/93 1226 8 


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28 












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10/19/93 1613 9 


1 


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10/19/93 1645 9 


2 


33 












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10/19/93 1715 9 


3 


17 












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10/20/93 1004 10 


1 


39 












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10/21/93 925 11 


1 


30 












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10/21/93 955 12 


1 


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1 





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10/21/93 1050 12 


4 




















1 








10/21/93 1104 12 


5 


65 

















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10/21/93 1140 12 


6 


24 



























10/21/93 1304 12 


7 


31 


























10/21/93 1345 12 


8 


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10/21/93 1410 12 


9 


35 





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10/20/93 1620 12 


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41 





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10/20/93 1712 12 


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10/20/93 1544 12 


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6 


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1 





1 


10/22/93 1126 13B 


10 


24 








1 


1 


1 














10/22/93 1203 13B 


11 


30 








1 


1 1 


1 















Page 12 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 


TIME DRAIN TINAJA 


TDS 


PH 


CLR 


STAIN 


OIL TRAIL ACS P_DR 


W_DR 


P_TN 


W_TN 


10/22/93 


1250 13B 


12 


20 







1 


1 


1 


1 











10/22/93 


1344 13B 


13 


20 











1 


1 


1 


1 





1 


10/22/93 


1406 13B 


14 


24 










1 


1 


1 








1 


10/24/93 


14 


1 


27 










1 


2 


1 


2 





1 


10/24/93 


14 


2 


33 





1 




1 


2 


1 


2 





1 


10/24/93 


14 


3 


36 













2 


1 


2 





4 


10/24/93 


14 


4 


19 










1 


2 


1 


2 





1 


10/24/93 


14 


5 


16 










1 


2 


1 


2 





1 


10/24/93 


14 


6 


20 













2 


1 


2 








10/24/93 


14 


7 


17 













2 


1 


2 





2 


10/24/93 


14 


8 


17 





1 







2 


1 


2 








10/23/93 


1507 14 


9 


27 












2 


3 







1 


10/28/93 


1100 15 


1 


33 












2 


D 







1 


10/28/93 


1140 15 


2 


34 





1 






2 


D 










10/28/93 


1215 15 


3 


30 












2 


D 










10/28/93 


1400 15 


4 


24 












2 


1 










10/28/93 


1435 15 


5 


26 












2 


1 










10/28/93 


1500 15 


6 


47 













2 


1 







1 


10/28/93 


1540 15 


7 


27 














2 


1 







1 


10/28/93 


1615 15 


8 


33 





1 








2 


1 










10/30/93 


1600 15 


9 


38 


7.9 


1 






2 


1 










10/30/93 


1130 15A 


1 


26 


9.0 









2 


1 










10/30/93 


1300 15A 


2 


26 


8.2 









2 


1 










10/30/93 


1340 15A 


3 


21 


8.2 









2 


1 










10/30/93 


1420 15A 


4 


29 


8.2 









2 


1 










10/30/93 


1445 15A 


5 


32 


7.7 









2 


1 







1 


11/4/93 


1130 16 


1 


44 


8.5 


4 






2 


1 


2 





1 


11/4/93 


1215 16 


2 


43 


8.4 









2 


1 


2 








11/4/93 


1245 16 


3 


27 


8.3 









2 


1 


2 








11/4/93 


1300 16 


4 


31 


8.2 


1 






2 


1 


2 





4 


11/4/93 


1345 16 


5 


66 


7.8 










2 


1 


2 





1 


11/4/93 


1415 16 


6 


28 


8.2 









2 


1 


2 





1 


11/4/93 


1440 16 


7 


32 


7.8 









2 


1 


2 





1 


11/5/93 


1020 16 


8 


30 


8.3 


4 







2 


1 


2 





4 


11/5/93 


1113 16 


9 


27 


7.7 









2 


1 


2 





1 


11/5/93 


1200 16 


10 


28 


7.7 









2 


1 


2 





1 


11/5/93 


1530 16 


11 


39 


7.7 









2 


1 


1 





1 


11/5/93 


1600 16 


12 


43 


7.8 









2 


1 


2 





1 


11/6/93 


900 16 


13 


62 


8.3 


4 






2 ( 


) 


2 





4 


11/5/93 


1300 16A 


1 


53 


7.2 


4 






2 1 


1 











11/5/93 


1440 17 


1 


39 


7.2 


4 







2 


1 


1 





2 


11/10/93 


1140 18 


1 


22 


8.0 










2 1 





2 





4 


11/10/93 


1215 18 


2 


25 


8.0 





1 




2 1 





2 








11/10/93 


1340 18 


3 


23 


8.0 










2 1 





2 





4 


11/10/93 


1435 18 


4 


33 


7.7 


1 







2 1 





2 





1 


11/16/93 


1400 18A 


1 


11 


6.9 


4 







2 1 














11/17/93 


1115 19 


1 


15 


6.6 


2 







2 1 














11/17/93 


1145 19 


2 


12 


6.8 


3 







2 1 














11/17/93 


19 


3 


26 


7.1 


2 








2 1 





2 





1 


11/17/93 


19 


4 


11 


7.2 


3 








2 1 





2 





1 



Page 13 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 


TIME DRAIN TINAJA 


TDS PH 


CLR STAIN 


OIL TRAIL 


ACS 


P_DR 


W_DR 


P_TN 


W_TN 


11/17/93 


19 


5 


11 7.0 


3 





2 


1 





2 








3/16/94 


1301 20 


1 


21 


1 1 





3 





1 




1 





3/16/94 


1536 21 


1 


26 


3 1 


1 


3 


2 










1 


3/16/94 


1610 21 


2 


24 


3 1 





3 












1 


3/16/94 


1700 21 


3 


23 


3 1 





3 












1 


3/16/94 


1700 21 


4 


23 


3 1 





3 












1 


3/16/94 


1730 21 


5 


26 


1 




3 















3/17/94 


914 21B 


1 


42 


1 1 




3 












1 


3/17/94 


930 21 B 


2 





1 





3 












1 


3/17/94 


1116 22 


1 


57 


1 1 




2 
















3/17/94 


1353 23 


1 


73 


1 




2 





1 








1 


3/17/94 


1433 23 


2 


30 


1 1 




2 





1 





1 





3/17/94 


1521 23 


3 


13 


1 




2 





1 





1 





3/17/94 


1543 23 


4 


21 


1 




2 





1 





2 


1 


3/17/94 


1606 23 


5 


25 


1 




2 





3 





1 





3/17/94 


1627 23 


6 


34 







2 





2 











3/17/94 


1645 23 


7 


25 


1 




2 





2 





1 


1 


3/18/94 


825 24 


1 


72 






2 

















3/18/94 


900 24 


2 


29 






2 

















3/18/94 


934 24 


3 


83 







2 
















3/18/94 


955 24 


4 


6 


1 





2 




1 





1 





3/18/94 


1021 24 


5 


46 






2 

















3/18/94 


1040 24 


6 


57 







2 




1 







1 


3/18/94 


1223 25 


1 


18 






2 












1 


3/18/94 


1257 25 


2 


46 






2 












1 


3/19/94 


720 26 


1 


25 






















3/19/94 


755 26 


2 


28 





















3/19/94 


826 26 


3 


23 





















3/19/94 


919 26 


4 


48 


















1 


3/19/94 


1016 26 


5 


36 


1 
















1 


3/19/94 


1107 26 


6 


29 


















1 


3/19/94 


1150 26 


7 


81 


















1 


3/19/94 


1215 26 


8 


37 





















3/25/94 


1022 26 


9 


45 























3/23/94 


1217 27 


1 


74 























3/23/94 


1243 27 


2 


49 














1 





1 


3/23/94 


1437 27A 


1 


7 











1 











3/23/94 


1455 27A 


2 


65 











1 











3/23/94 


1518 27A 


3 


75 











1 











3/24/94 


1051 28 


1 


74 























3/24/94 


1110 28 


2 


45 























3/24/94 


1100 28 


3 


90 























3/24/94 


1211 28 


4 


74 























3/24/94 


1238 28 


5 


82 























3/24/94 


1303 28 


6 


62 























3/24/94 


1309 28 


8 


83 























3/24/94 


1532 29 


1 


62 
























3/24/94 


1612 29 


2 


44 
























3/24/94 


1450 29 


3 


82 















1 





1 


3/24/94 


1709 29 


4 


73 





















1 



Page 14 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 

3/24/94 

3/24/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/25/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

3/26/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/8/94 

4/9/94 

4/9/94 

4/9/94 

4/9/94 

4/9/94 

4/9/94 

4/9/94 

4/9/94 



TIME DRAIN 
1727 29 
1750 30 
1203 31 
1248 32 
1301 32 
1330 32 
1348 32 
1418 33 
1823 33 
1840 33 
1456 34 
1507 34 
1523 34 
1550 34 
1615 34 
1639 34 
1648 34 
1701 34 
1016 35 
1039 35 
1111 35 
1128 35 
1614 36 
1635 36 
1652 37 
1705 37 
1741 37A 
1725 37A 
948 38 
1105 38 
1132 38 
1212 38 
1252 38 
1431 38A 
1452 38A 
1505 38A 
1525 38A 
1537 38A 
1633 38A 
1704 38A 
1720 38A 
1736 38A 
1042 39 
1123 39 
1205 39 
1205 39 
1205 39 
1249 39 
1319 39 
1351 39 



TINAJA 

5 

1 

1 

1 

2 

3 

4 

1 

2 

3 

1 

2 

3 

4 

5 

6 

7 

8 

1 

2 

3 

4 

1 

1 

2 

3 

1 

2 

1 

2 

3 

4 

5 

1 

2 

3 

4 

5 

6 

7 

8 

9 

1 

2 

3 

4 

5 

6 

7 

8 



TDS 



65 
36 
52 
49 
40 
50 
24 
47 
22 
29 
27 
46 
27 
19 
13 
17 
26 
26 
3 
4 
13 
65 
95 
26 
59 
47 
47 



73 
93 

107 



76 
56 
51 
55 
55 
55 
52 
50 
49 






1 
1 




4 
4 



4 
4 
4 



RAIL 


ACS 


P_DR 


W_DR 


P_TN 


W_TN 











1 





1 












































2 


1 


2 


1 


1 


1 


2 





1 





1 


1 


1 





1 





1 


1 


1 





1 





1 








1 





1 





1 





1 





1 


1 


1 





1 





1 









































1 

















1 





1 





1 





1 





1 











1 





1 











1 





1 








9 


1 





1 














1 














1 


1 














1 


1 


1 





1 





1 


1 


1 



































1 





1 





1 





1 











1 





1 

















1 





1 




















3 





1 


2 


1 


4 


3 




1 


1 








3 




1 





1 





3 




1 


1 








3 
















3 
















3 
















3 
















3 
















3 
















3 

















3 

















3 





1 


1 


1 


1 


3 








1 








3 





2 





1 





3 





2 





2 





3 


1 














3 


1 














3 


1 














3 





3 











3 


1 


3 





4 





3 


1 


3 





4 






Page 15 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 


TIME DRAIN TINAJA 


TDS PH 


CLR STAIN OIL TRAIL 


ACS 


P_DR 


W_DR 


P_TN 


W_TN 


4/9/94 


1430 39 


9 


44 


4 


3 




3 





4 





4/10/94 


1142 39 


10 


134 


4 1 


1 3 
















4/10/94 


1142 39 


11 


134 


4 1 


1 3 
















4/10/94 


1215 39 


12 


131 


4 1 


1 3 




1 





1 





4/10/94 


1241 39 


13 




4 1 


1 3 
















4/10/94 


1323 39 


14 


128 


4 1 


1 3 
















4/10/94 


1352 39 


15 


97 


4 1 


1 3 
















4/10/94 


1416 39 


16 


127 


4 1 


1 3 
















4/10/94 


1440 39 


17 


132 


4 1 


1 3 
















4/10/94 


1511 39 


18 


130 


4 1 


1 3 




1 





1 


1 


4/10/94 


1511 39 


19 


130 


4 1 


1 3 




1 





1 


1 


4/10/94 


1535 39 


20 





4 1 


1 3 
















4/10/94 


1633 40 


1 


86 


1 


1 3 

















4/10/94 


1600 40 


2 





1 


1 3 

















4/10/94 


40 


3 


87 


1 


1 3 

















4/10/94 


1529 41 


1 





1 


1 3 

















4/10/94 


1801 42 


1 





1 


1 3 





1 


2 


1 





4/11/94 


845 42 


2 


16 


1 


1 3 
















4/11/94 


1038 42 


3 




1 


1 3 
















4/11/94 


1038 42 


4 





1 


1 3 
















4/11/94 


1038 42 


5 





1 


1 3 
















4/11/94 


1038 42 


6 





1 


1 3 
















4/11/94 


1038 42 


7 


11 


1 


1 3 
















4/11/94 


1038 42 


8 





1 


1 3 
















4/11/94 


1038 42 


9 


8 


1 


1 3 
















4/11/94 


1038 42 


10 





1 


1 3 
















4/11/94 


1120 42 


11 


28 


1 


1 3 
















4/11/94 


1153 42 


12 


47 


1 


1 3 
















4/11/94 


1228 42 


13 


18 


1 


1 3 
















4/11/94 


1325 42 


14 


31 


1 


1 3 

















4/11/94 


1325 42 


15 


45 


1 


1 3 

















4/11/94 


1325 42 


16 


48 


1 


1 3 

















4/11/94 


1325 42 


17 


32 


1 


1 3 

















4/11/94 


1325 42 


18 


32 


1 


1 3 

















4/11/94 


1325 42 


19 


28 


1 


1 3 

















4/11/94 


1325 42 


20 


27 


1 


1 3 

















4/11/94 


1325 42 


21 


28 


1 


1 3 

















4/11/94 


1410 42 


22 


22 


1 


1 3 







1 





1 


4/11/94 


1443 42 


23 


32 


1 


1 3 
















4/11/94 


1515 42 


24 


21 


1 


1 3 
















4/11/94 


1545 42 


25 


27 


1 


1 3 
















4/11/94 


1609 42 


26 


33 


1 


1 3 
















4/11/94 


1623 42 


27 


60 


1 


1 3 
















4/11/94 


1640 42 


28 





1 


1 3 
















4/11/94 


1704 42A 


1 


44 


1 


1 3 
















4/11/94 


1717 42A 


2 


58 


1 


1 3 
















4/11/94 


1739 42A 


3 


61 


1 


1 3 
















4/11/94 


1750 42A 


4 


70 


1 


1 3 
















4/11/94 


1816 42B 


1 


63 


1 


1 3 
















4/12/94 


1014 43 


1 


41 


1 


1 3 


















Page 16 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE TIME DRAIN TINAJA TDS PH 


CLR 


STAIN 


OIL TRAIL 


ACS 


P_DR 


W_DR 


P_TN 


W_TN 


4/12/94 1146 44 


1 












3 





1 





1 





4/12/94 1230 44 


2 


28 









3 


1 





2 





4 


4/12/94 1307 44 


3 


37 









3 

















4/12/94 1319 44 


4 


25 









3 


1 














4/12/94 1330 44 


5 












3 


1 














4/12/94 1351 44 


6 


32 









3 


1 














4/12/94 44 


7 


36 









3 





1 


1 


1 


1 


4/12/94 1432 44 


8 


28 









3 

















4/12/94 1447 44 


9 


36 









3 


1 














4/12/94 1515 44 


10 
































4/12/94 1515 44 


11 
































4/12/94 1515 44 


12 
































4/12/94 1515 44 


13 
































4/12/94 1515 44 


14 
































4/12/94 1515 44 


15 
































4/12/94 1515 44 


16 
































4/12/94 1515 44 


17 
































4/12/94 1515 44 


18 
































4/12/94 1515 44 


19 
































4/12/94 1515 44 


20 
































4/12/94 1515 44 


21 
































4/13/94 1056 45 


1 


36 









3 

















4/13/94 1117 45 


2 


95 









3 








2 





4 


4/13/94 1148 45 


3 


17 









3 

















4/13/94 1243 46 


1 


25 









3 















4/13/94 1243 46 


2 


45 









3 















4/13/94 1243 46 


3 


34 









3 















4/13/94 1243 46 


4 


27 









3 















4/13/94 1243 46 


5 


26 









3 















4/13/94 1243 46 


6 


43 









3 















4/13/94 1315 47 


1 


26 









3 

















4/13/94 1401 47 


2 


17 









3 

















4/13/94 1410 47 


3 


19 









3 

















4/13/94 1435 48 


1 


24 









3 

















4/13/94 1511 48 


2 


27 









3 

















4/13/94 1605 49 


1 


49 









3 

















4/13/94 1636 49 


2 


29 









3 

















4/13/94 1649 49 


3 


31 









3 

















4/13/94 1709 49 


4 


27 









3 

















4/13/94 1736 49 


5 


38 









3 

















4/13/94 1802 49 


6 


19 









3 

















4/13/94 1817 49 


7 


16 









3 

















4/13/94 1817 49 


8 


15 









3 

















4/13/94 1834 49 


9 


26 









3 

















4/13/94 1834 49 


10 


18 









3 

















4/13/94 1834 49 


11 


18 









3 

















4/21/94 1350 50 


1 


51 









3 


1 














4/21/94 1400 50 


2 


55 









3 


1 





1 





1 


4/21/94 1443 50 


3 












3 


1 





2 





1 


4/21/94 1457 50 


4 


11 









3 


1 















Page 17 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 


TIME DRAIN TINAJA 


TDS PH 


CLR STAIN OIL TRAIL ACS 


P_DR 


W_DR 


P_TN 


W_TN 


4/21/94 


1511 50 


5 


46 





1 1 


3 


1 














4/21/94 


1531 50 


6 


56 





1 1 


3 


1 














4/21/94 


1556 50 


7 


60 





1 


3 


1 














4/21/94 


1620 50 


8 


4 





1 1 


3 


1 














4/21/94 


1706 50 


9 


49 





1 


3 


1 














4/21/94 


1725 50 


10 


51 





1 


3 

















4/21/94 


1746 50 


11 


63 0.0 





1 


3 


1 














4/21/94 


1809 50 


12 


69 





1 1 


3 

















4/21/94 


1817 50 


13 


13 





1 1 


3 


1 














4/21/94 


1839 50 


14 


17 





1 


3 


1 





1 








4/21/94 


1907 50 


15 


56 





1 1 


3 


1 














4/22/94 


756 50 


16 


65 





1 1 


3 

















4/22/94 


825 50 


17 








1 


3 

















4/22/94 


935 51 


1 


58 





1 1 


3 

















4/22/94 


916 51A 


1 


22 





1 1 


3 

















4/22/94 


1004 52 


1 


34 





1 


3 





1 








1 


4/22/94 


1052 52 


2 


68 





1 1 


3 


1 














4/22/94 


1115 52 


3 


41 





1 


3 

















4/22/94 


1406 53 


1 


51 





1 


3 

















4/22/94 


1512 53 


2 


20 





1 


3 

















4/22/94 


1512 53 


3 


34 





1 


3 

















4/22/94 


1512 53 


4 


33 





1 


3 

















4/22/94 


1538 53 


5 


39 





1 1 


3 

















4/22/94 


1605 53 


6 


35 





I 


3 








1 





1 


4/22/94 


1605 53 


7 


35 





I 


3 








1 





1 


4/22/94 


1333 53A 


1 


8 





I 1 


3 





1 





1 





4/23/94 


855 53A 


2 


89 





I 1 


3 

















4/23/94 


932 53A 


3 


58 





I 1 


3 

















4/23/94 


1000 53A 


4 


62 





I 1 


3 

















4/23/94 


1014 53A 


5 


63 





I 


3 





1 











4/23/94 


1055 53A 


6 








I 


3 

















4/23/94 


1055 53A 


7 


52 





I 


3 

















4/23/94 


1055 53A 


8 


55 





I 


3 

















4/23/94 


1055 53A 


9 


3 





I 1 


3 

















4/23/94 


1055 53A 


10 


66 





I 


3 

















4/23/94 


1055 53A 


11 








I 


3 

















4/23/94 


1200 53A 


12 


64 







3 

















4/23/94 


1332 54 


1 


50 







3 







1 








4/23/94 


1406 54 


2 


41 





I 


3 
















4/23/94 


1430 54 


3 


43 







3 







1 





1 


4/23/94 


1511 54 


4 


47 


1 




3 
















4/23/94 


1619 54 


5 


60 


1 




3 
















4/25/91 


941 54 


6 


31 


1 




3 




1 





1 





4/25/94 


1038 54 


7 


35 


1 




3 




1 





1 





4/25/94 


1104 54 


8 


35 


1 




3 





1 


2 


1 


1 


4/24/94 


1614 54 


9 


57 


1 




3 
















4/25/94 


1135 54 


10 





1 




3 




1 


1 


1 


1 


4/25/94 


1202 54 


11 


58 


1 




3 




1 





1 





4/25/94 


1215 54 


12 




1 




3 




1 





1 





4/23/94 


1543 54A 


1 


34 


1 




3 

















Page 18 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 


TIME DRAIN TINAJA 


TDS PH 


CLR STAIN OIL TRAIL 


ACS 


P_DR 


W_DR 


P_TN 


W_TN 


4/24/94 


817 54A 


2 


47 


1 


1 3 
















4/24/94 


817 54A 


3 


55 


1 


1 3 
















4/24/94 


817 54A 


4 


49 


1 


1 3 
















4/24/94 


817 54A 


5 


65 


1 


1 3 
















4/24/94 


817 54A 


6 


46 


1 


1 3 
















4/24/94 


817 54A 


7 


49 


1 


1 3 
















4/24/94 


817 54A 


8 


50 


1 


1 3 
















4/24/94 


817 54A 


9 


44 


1 


1 3 
















4/24/94 


817 54A 


10 


53 


1 


1 3 
















4/24/94 


817 54A 


11 


50 


1 


1 3 
















4/24/94 


817 54A 


12 


56 


1 


1 3 
















4/24/94 


817 54A 


13 


84 


1 


1 3 
















4/24/94 


1144 54A 


14 


12 


1 


1 3 
















4/24/94 


1108 54B 


1 


67 


1 1 


3 
















4/24/94 


1020 54B 


2 


20 


1 


1 3 
















4/24/94 


1042 54B 


3 


47 


1 1 


3 
















4/24/94 


1234 54C 


1 


41 


1 


1 3 
















4/24/94 


1300 54C 


2 


39 


1 


1 3 
















4/24/94 


1300 54C 


3 


45 


1 


1 3 
















4/24/94 


1328 54C 


4 





1 


1 3 

















4/24/94 


1350 54C 


5 




1 


1 3 

















4/24/94 


1409 54C 


6 





1 


1 3 

















4/24/94 


1426 54C 


7 


27 


1 


1 3 
















4/24/94 


1437 54C 


8 


30 


1 


1 3 







1 








4/24/94 


1511 54C 


9 


49 


1 1 


1 3 
















4/24/94 


1545 54C 


10 





1 1 


1 3 
















4/24/94 


1545 54C 


11 


31 


1 


1 3 

















4/24/94 


1553 54C 


12 


44 


1 


1 3 

















4/25/94 


1403 55 


1 


42 


1 


1 3 
















2/25/94 


1441 55 


2 


34 


1 


1 3 
















5/11/94 


1218 59 


1 


71 


1 1 


4 







1 





1 


5/11/94 


1218 59 


3 


63 


1 1 


1 4 
















5/11/94 


1353 59 


4 


68 


3 1 


1 4 
















5/11/94 


825 60 


1 


44 


1 1 


1 4 
















5/11/94 


842 60 


2 


18 


1 1 


1 4 
















5/11/94 


902 60 


3 


48 


1 


1 4 
















5/11/94 


934 60 


4 


28 


1 


1 4 
















5/11/94 


1009 60 


5 


53 


1 


4 
















5/11/94 


1038 60 


6 


65 


1 


1 4 
















5/11/94 


1055 60 


7 


24 


1 


1 4 
















5/11/94 


1117 60 


8 


93 


1 


1 4 
















5/11/94 


1129 60 


9 


21 


3 1 


1 4 
















5/15/94 


1015 60 


10 


73 


1 


1 4 
















5/15/94 


1118 60 


11 


47 


1 


1 4 
















5/15/94 


1140 60 


12 


87 


1 1 


1 4 







2 





4 


5/15/94 


1205 60 


13 


42 


1 1 


1 4 







1 





1 


5/15/94 


1222 60 


14 


55 


1 


1 4 
















5/15/94 


1300 60 


15 


52 























5/15/94 


1300 60 


16 


50 























5/15/94 


1300 60 


17 


21 
























Page 19 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE 


TIME DRAIN TINAJA 


TDS PH 


CLR STAIN 


OIL TRAIL 


ACS 


P_DR 


W_DR 


P_TN 


W_TN 


5/15/94 


1300 60 


18 


83 


























5/15/94 


1300 60 


19 


57 


























5/15/94 


1300 60 


20 


88 


























5/15/94 


1300 60 


21 


— 


























5/15/94 


1300 60 


22 





























5/11/94 


754 60A 


1 


69 


1 1 




4 








1 





1 


5/26/94 


1453 60A 


2 


31 


1 1 




4 
















5/14/94 


1542 60A 


3 


35 


1 




4 
















5/14/94 


1622 60A 


4 


72 


1 




4 
















5/14/94 


1634 60A 


5 


29 


1 




4 
















5/14/94 


1707 60A 


6 


32 


1 




4 







2 





4 


5/14/94 


1732 60A 


7 


34 


3 1 




4 







2 





4 


5/14/94 


1759 60A 


8 


50 


3 1 




4 







2 





4 


5/14/94 


1048 60B 


1 


77 


1 




4 
















5/14/94 


1100 60B 


2 


36 


1 




4 
















5/14/94 


1222 60B 


3 


48 


1 1 




4 







1 





1 


5/14/94 


1210 60B 


4 


51 


1 1 




4 
















5/14/94 


1300 60B 


5 


51 


1 1 




4 
















5/14/94 


1300 60B 


6 


48 


1 1 





4 







2 





4 


5/14/94 


1323 60B 


7 


66 


1 




4 
















5/14/94 


1344 60B 


8 


30 


1 




4 
















5/14/94 


1409 60B 


9 


32 


1 1 





4 
















5/14/94 


1028 60c 


1 


47 0.0 


1 




4 

















5/11/94 


1632 61 


1 


74 


1 





4 








1 





1 


5/17/94 


1012 61 


1 


80 


1 1 




4 
















5/17/94 


1053 61 


2 


41 


1 1 




4 
















5/17/94 


1139 61 


3 





1 1 




4 







1 





1 


5/17/94 


1217 61 


4 


45 


1 




4 
















5/17/94 


1234 61 


5 


24 


3 1 




4 
















5/12/94 


1242 62 


2 


45 


1 




4 
















5/12/94 


1314 62 


3 


57 


1 




4 
















5/12/94 


1351 62 


4 


46 


3 1 




4 
















5/12/94 


1426 62 


5 


40 


1 




4 
















5/12/94 


1426 62 


6 


14 


1 




4 
















5/12/94 


1506 62 


7 


38 


1 




4 
















5/12/94 


1523 62 


8 


32 


1 




4 
















5/12/94 


1551 62 


9 


30 


1 




4 
















5/12/94 


1623 62 


10 


45 


1 




4 
















5/12/94 


1636 62 


11 


68 


1 1 




4 
















5/12/94 


1656 62 


12 


42 


1 1 




4 
















5/12/94 


1717 62 


13 


52 


1 1 




4 
















5/12/94 


1735 62 


14 


59 


1 




4 
















5/13/94 


1807 62 


15 


47 


1 1 




4 
















5/13/94 


831 62 


16 


83 


1 




4 
















5/13/94 


900 62 


17 


65 


1 




4 
















5/13/94 


932 62 


18 


66 


1 




4 
















5/13/94 


1000 62 


19 





1 




4 
















5/13/94 


1030 62 


20 


66 


1 




4 
















5/13/94 


1052 62 


21 


66 


1 




4 
















5/13/94 


1132 62 


22 


79 


1 




4 

















Page 20 



WATER QUALITY, POTENTIAL AND EXISTING USE DATA 



DATE TIME DRAIN TINAJA TDS PH CLR STAIN OIL TRAIL ACS P DR W DR P TN W TN 



5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 
5/13/94 



1204 62 
1241 62 
1251 62 
1305 62 
62 




23 
24 
25 
26 
27 
28 
29 
30 
31 
32 
33 
34 
35 



59 — 

48 — 

43 — 

59 — 
22 — 

44 — 
89 — 
68 — 
47 — 

60 — 
79 — 

56 — 



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TINAJA INVENTORY DATA SHEET 
Fall 1993/Spring 1994 



Date: Time: 



Observers : 



LOCATION DATA 

USGS Map Name: Drainage No.:: 

Tinaja No. : : -,.UTM- Coordinates: UTM-E • ■■■•-':-■ L UTM-N. 
Photo "roll no. 1 ■■'•"■• "T'.:;I.i ..'■ Photo no.: 



:. PHYSICAL PARAMETERS 

'.I . ■ • •' -' 

1. Volume = 2/3abc where a=length/2 b=width/2 c=max. depth 

Open water: Length (m) : Width ; Max. Depth: - ' 

Basin (water + emergent/low meadow veg): 

: .Length (m) : -_ ■ ._ Width - • •■■ ■•• "■''- ■' , 

2. Exposure (based upon summer conditions) 

1 - Exposed (receives almost no shade) - 

2 - Protected (receives shade in the morning or afternoon) 

3 - Very Protected (rarely receives sunlight) 

3 . Sediment 

= Bedrock 

1 = Sand/silt 

2 = both 

3a. If sand/silt present, amount: 

-0 =. small amount, <10% of maximum volume 

1 = medium amount, 10-50% of maximum volume 

2 = large amount, >50% maximum volume 

4. Position in the Drainage 



= Low (in lower 1/3 of drainage) 

1 = Middle (middle 1/3) 

2 = High (upper 1/3) 

5. % Slope of Substrate 

6. Water level below high water mark (cm) 

7. Depth from top of pour off to high water mark (if 

applicable ) 



(tinainv.sht revised 10/93) 



w^W — i — MMMM— MlM fM0 W I M— M — — IHM — h—MMM— > ^" ""--- - 



Page 2 

Date .,. Drainage No. ■ i ■ Tinaja No. 

8. WATER QUALITY 
a. ' Conductivity (umhos) b. pH 

c. ' Water Color 

= colorless JL=brown 2=rusty .3=green _4 = other. . 

<V; ! Au Mil, -;.v- *>' hi 

d. Rusty stain marks present at inlet or outlet? 

(0=yesy. l=no) 8 _. :^±.r.- • 

e. v r Oily sheen present on water surface? ( 0/1 ) '■ 

: Z POTENTIAL AND EXISTING USE 

9.- Distance to nearest trailhead- (miles ) 

0-2 2.1-5 5.1 - 10 >1*0 

10. • ~:<— Accessibility v^ ....._... :■ O i y^w :z 

= Readily accessible (no obstructions );-? * '-•- 

1 = Accessible (obstructions which can be. hiked or climbed 

around, e.g pouroff ) 

2 = Inaccessible (major obstruction which requires advanced 

climbing skills to. get: around) - 

r: ,- .• -rr'i-;- ; '-. ■■ •: o J-jai #1 O© *" 't:i .' . f ;"•;»;'. & ■ -...:.-■ !-■;■;'•*'.. '■'..' 

11. Evidence, of: People and Wildlife within Drainage 
a. People 

= No evidence ^" 

1 = Footprints of 1-5 people • 

2 = Footprints of >5 people ." 

3 = People seen (indicate number seen in parentheses) 

If people are present, record the number and the length of time 
they have been and plan to stay in the tinaja/drainage area: 



b. Wildlife 

= None '■••■■'■ 

1 = Tracks or scat present ( identify, if- possible ) : 

2 = Wildlife present (list species seen and numbers): 



12. Evidence of Use Within 5 meters of Tinaja 

People Wildlife 

= no evidence = no evidence 

1 = - 10 footprints 1 = - 10 tracks 

2 = 11 - 50 footprints 2 = 11 - 50 tracks 

3 = > 50 footprints 3 = > 50 tracks 

4 = People present 4 = Wildlife present 

(Identify wildlife tracks/species, if possible): 






Page 3 

t 

Date Drainage No. Tinaja No. 

BASIN/ VEGETATION CHARACTERIZATION 

13. _, Percent of ; the'* tinaja basin with surface water (when 

filled to high water mark). 

14. ~. i Percent of ' the tinaja basin with emergent ^vegetation 
(erect, rooted, herbaceous" aquatic plants , e.g., cattails, 
bulrush , sedges ) . 



f- v t 



List emergent species and approximate percent "I cover of the 
emergent vegetation that they comprise: ' v.vj- 

15. ■ i . Percent of the tinaja basin with low meadow vegetation 
( vegetation within the tinaja basin, beyond" the emergent 

vegetation or^open water). 

-•".' ?£ . j rjqjbs'y {#":;& bi..'^ ■■;• ■■•■:':•:. '-it- 

List low meadow species and approximate percent cover of the 
low meadow -vegetation that > they comprise: : ' 



16. Basin perimeter characterization (0-3 m from basin): 

16a. % vegetative cover 

% bare rock 

% sand 

16b. Vertical structure of riparian vegetation 

% of riparian vegetation < lm tall 

% of riparian vegetation 1.1 - 2m tall 

% of riparian vegetation > 2m tall 

16c. List riparian species and approximate percent of the 
riparian area they comprise: 



16d. Distance (m) from the basin that the riparian zone 

extends (may be a range as it varies around the basin). 



17. Tamarisk Present? (0=yes, l=no) 



Page 4 
Date Drainage No. Tinaja No. 



.. : , MACROINVERTEBRATES AND AMPHIBIANS 

16. Macroinvertebrate list: Take consecutive sweep net samples 
,, * r . in different habitat types until no new taxa are found. Then 
..... rate ; the relative abundance of the different taxa as: 

= Absent 
^ .1 , = vr Sparse . (1-10 vseen) ; s ; ... - .:- 

2 = Common (11-50 seen) ,. *v 

3 = Abundant (>50 seen) 

Backswimmers Dragonflies (adults) 

Beetles (adults) Dragonflies (nymphs) 

„• { , : Beetles (larva) Fairy Shrimp 

. Boatmen .. -j n Mayflies . 

Caddisflies '•. Mosquito larva (wigglers) 



Chironomids (midges) Tadpole Shrimp 

Clam Shrimp - : - ■ - ■ Water Striders 

Damselflies -( adults ) Others (Specify) 

Damselflies (nymphs) 



17. Amphibian list (Record the number of each species seen as you 
walk the perimeter of the tinaja). 

Canyon Treefrog 

Leopard Frog 

Red-spotted Toad 

Great Basin Spadefoot Toad 

Woodhouse Toad 

Other (specify): 



18. Record the average number of tadpoles observed in four 

30 second counts made at the N, S, E, and W sides of each 
tinaja. 

19. COMMENTS: 



'